CN217453278U - Automatic grinding device of foaming shoes embryo - Google Patents

Abstract

The utility model discloses an automatic polishing device for a foamed shoe blank, which relates to the technical field of shoe blank polishing and comprises a frame, wherein the frame is provided with a workbench, and the workbench is provided with a first processing station, a second processing station and a third processing station for processing the shoe blank; the positioning and clamping mechanism is butted with the conveying mechanism and arranged on the workbench and used for clamping and positioning the shoe blanks conveyed by the conveying mechanism; the burr polishing mechanism is arranged on the workbench and positioned on one side of the first machining station, and is used for polishing burrs of the sole; after the technical scheme is adopted, the utility model discloses can practice thrift manual work, full-automatic shoes embryo of polishing, improve the efficiency of polishing and the quality of polishing.

Description

Automatic grinding device of foaming shoes embryo

Technical Field

The utility model relates to a shoes embryo technical field that polishes, concretely relates to automatic grinding device of foaming shoes embryo.

Background

Shoes are a tool for protecting feet of people from being injured. In daily life, shoes are indispensable articles for daily life, and the quality of the shoes is particularly important. The sole is the core part of shoes, the sole is in the course of working, need polish the shoes embryo earlier, then make shoes with the shoes embryo processing after polishing, when current shoes embryo is polished, generally polish through the manual work, the shoes embryo that polishes through the manual work is because the dynamics of polishing at every turn, time, some errors between the angle etc. probably lead to every shoes embryo to all have the difference after polishing, and the manual work is under the work of polishing for a long time, probably because fatigue, factors such as dysphoria, reduce the efficiency of polishing or reduce the quality of polishing, and the cost of labor is higher.

In view of this, the utility model discloses to a great deal of disappearance and the inconvenience that leads to of not making perfect in the above-mentioned goods transport process, and deep conception, and active research improvement try and development design go out the utility model discloses.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide one kind can practice thrift manual work, full-automatic shoes embryo of polishing, improve the automatic grinding device of foaming shoes embryo of efficiency of polishing and the quality of polishing.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an automatic polishing device for foamed shoe blanks is in butt joint with a conveying mechanism for conveying the shoe blanks, and comprises

The shoe blank processing device comprises a rack, wherein a workbench is arranged on the rack, and a first processing station, a second processing station and a third processing station for processing shoe blanks are arranged on the workbench;

the positioning and clamping mechanism is butted with the conveying mechanism and arranged on the workbench and used for clamping and positioning the shoe blanks conveyed by the conveying mechanism;

the burr polishing mechanism is arranged on the workbench and positioned on one side of the first machining station, and is used for polishing burrs of the shoe blank;

the first rotary clamping mechanism is correspondingly arranged on the first processing station and used for clamping shoe blanks and is matched with the burr polishing mechanism to polish burrs of the shoe blanks;

the side polishing mechanism is arranged on the workbench and positioned on one side of the second machining station, and is used for polishing the side of the shoe blank;

the second rotary clamping mechanism is correspondingly arranged on the second processing station and is used for clamping the shoe blank and is matched with the side polishing mechanism to polish the side of the shoe blank;

the sole polishing mechanism is arranged on the workbench and correspondingly arranged on the third machining station and is used for polishing soles;

the moving mechanism is arranged on the workbench, three mechanical arms are arranged on the moving mechanism, each mechanical arm picks the shoe embryo and correspondingly sends the shoe embryo into the first rotary clamping mechanism, the second rotary clamping mechanism and the sole polishing mechanism.

Further, location clamping mechanism includes location base, location cylinder, centre gripping adjusting block, grip block and baffle, the location base sets up on the workstation, the location cylinder sets up on the location base, and the both sides of location cylinder respectively are provided with a centre gripping adjusting block, be provided with a plurality of installation screens on the centre gripping adjusting block, respectively are provided with a grip block on two centre gripping adjusting blocks, the baffle sets up the front end at the location cylinder.

Further, the burr polishing mechanism comprises a burr base, a burr recording component and a polishing component, the burr base is arranged on the workbench and located on one side of the first rotary clamping mechanism, the burr recording component is arranged on the burr base and used for scanning and recording burr shapes of the shoe blanks, and the polishing component is arranged on the burr recording component and used for polishing burrs of the shoe blanks;

the burr recording assembly comprises a motor mounting plate, an encoder mounting plate, a servo motor, an encoder, a swing cylinder, a swing rod and a contact rod, wherein the motor mounting plate is movably arranged on the burr base;

the polishing assembly comprises a first rotating motor and a polishing rod, the first rotating motor is arranged on the motor mounting plate, and the first rotating motor is connected with the polishing rod in a driving mode.

Further, the first rotary clamping mechanism comprises a sliding assembly and a clamping assembly, the sliding assembly comprises two first slide rails, first slide blocks, a sliding table, a sliding motor and a connecting shaft, the two first slide rails are arranged on the workbench in parallel, the two first slide rails are respectively provided with one first slide block, the sliding table is arranged on the first slide blocks, the sliding motor drives the first slide blocks to slide on the first slide rails, the connecting shaft is arranged between the two first slide rails, and the sliding motor is connected with the connecting shaft; the centre gripping subassembly includes supporting seat, second rotating electrical machines, pneumatic rotating head, absorption cylinder, sucking disc and shoes material pivot, the supporting seat sets up on the slip table, and second rotating electrical machines sets up on the supporting seat, is provided with shoes material pivot on the supporting seat, and shoes material pivot is connected with second rotating electrical machines, is provided with the layer board in the shoes material pivot, pneumatic rotating head sets up on the supporting seat, and pneumatic rotating head connects the absorption cylinder, absorbs the cylinder and connects the sucking disc, the sucking disc is located the top of layer board, first rotatory fixture's structure is the same with the rotatory fixture's of second structure.

Further, side polishing mechanism is including polishing base, fixed plate, polishing motor, polishing cylinder, polishing stick, emery wheel seat and compression roller, the polishing base sets up on the workstation, be located one side of the rotatory fixture of second, the fixed plate sets up on the polishing base, and the polishing motor sets up on the fixed plate, and the polishing stick is connected to the polishing motor, and the polishing stick sets up on the emery wheel seat, and the emery wheel seat is fixed on the fixed plate, and the both sides of polishing stick are provided with the compression roller, and the compression roller is connected with the polishing cylinder, and the polishing cylinder sets up on the fixed plate.

Furthermore, the sole polishing mechanism comprises a turnover component, a roller component and a swinging component, wherein the swinging component is arranged on the roller component, and the turnover component is positioned at the front end of the roller component;

the turnover component comprises a turnover base, a turnover connecting plate, a first object placing plate, a second object placing plate, a turnover cylinder and a turnover motor, wherein the turnover base is arranged on the workbench, the first object placing plate and the turnover motor are arranged on the turnover base, the turnover base is connected with the turnover cylinder through the turnover connecting plate, the second object placing plate is arranged on the turnover cylinder, two clamping plates are respectively arranged on two sides of the turnover cylinder, a pushing cylinder and a pushing plate are arranged on the first object placing plate, and the pushing plate is fixed on the pushing cylinder;

the roller assembly comprises a roller base, a roller motor, a roller, a front end press roller assembly, a rear end press roller assembly and a discharge plate, the roller motor is in driving connection with the roller, the front end of the roller is provided with the front end press roller assembly, the rear end of the roller is provided with the rear end press roller assembly, the rear end press roller assembly is in butt joint with the discharge plate, the roller is arranged on the roller base, and the roller base is arranged on the workbench;

the swing subassembly is including installation base, inverter motor, belt pulley, belt, emery wheel axle, tensioning section of thick bamboo and abrasive paper, the installation base sets up on cylinder base, and inverter motor sets up on the installation base and one end connects the belt pulley, and the emery wheel axle is located the belt pulley is connected to the top and the one end of cylinder, connects through the belt between two belt pulleys, is provided with linking bridge on the emery wheel axle, is provided with the tensioning section of thick bamboo on the linking bridge, is connected with abrasive paper between tensioning section of thick bamboo and the emery wheel axle, and the sole is polished to the promotion cylinder with the shoes embryo to between cylinder and the emery wheel axle through abrasive paper.

Further, moving mechanism includes second slide rail, second slider, driving motor, fixed section bar and manipulator, the second slide rail sets up on the workstation, the second slider sets up on the second slide rail, and driving motor drive second slider moves on the second slide rail, fixed section bar sets up on the second slider, the manipulator is including pressing from both sides the cylinder and clamping jaw of getting, press from both sides the cylinder setting of getting and be in on the fixed section bar, the both sides of pressing from both sides the cylinder of getting respectively are provided with a clamping jaw.

After the technical scheme is adopted, the utility model conveys the shoe blanks to the positioning and clamping mechanism through the conveying mechanism, and the shoe blanks are clamped and positioned through the positioning and clamping mechanism; grabbing shoe blanks on the positioning and clamping mechanism to a first rotary clamping mechanism on a first machining station through a mechanical arm on the moving mechanism, then polishing burrs of the shoe blanks through a burr polishing mechanism, grabbing the shoe blanks to a second rotary clamping mechanism on a second machining station through the mechanical arm, and then polishing the shoe blanks through a side polishing mechanism; snatch the shoes embryo through the manipulator and polish to shoes embryo sole on the sole grinding machanism on the third machining-position station, accomplish polishing of shoes embryo, then the ejection of compact is polished through the machine and is replaced artifical polishing, has practiced thrift the manual work, has improved efficiency of polishing and the quality of polishing, can practice thrift the cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural view of the present invention without the outer frame.

Fig. 2 is a schematic structural view of the mounting frame of the present invention.

Fig. 3 is a schematic structural diagram of the middle positioning and clamping mechanism of the present invention.

Fig. 4 is a schematic structural view of the middle burr polishing mechanism of the present invention.

Fig. 5 is a schematic structural view of the first rotary clamping mechanism of the present invention.

Fig. 6 is a schematic structural view of the middle side polishing mechanism of the present invention.

Fig. 7 is a schematic structural diagram of the middle turning assembly of the present invention.

Fig. 8 is a schematic structural view of the middle roller assembly according to the present invention.

Fig. 9 is a schematic structural diagram of the swing assembly of the present invention.

Fig. 10 is a schematic structural view of the moving mechanism of the present invention.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

Referring to fig. 1-10, the present invention discloses an automatic polishing device for foamed shoes, which is connected to a conveying mechanism 100 for conveying shoes, and comprises a frame 1, a positioning and clamping mechanism 2, a burr polishing mechanism 3, a side polishing mechanism 4, a first rotary clamping mechanism 5, a second rotary clamping mechanism 6, a sole polishing mechanism 7, and a moving mechanism 8.

The machine frame is characterized in that a workbench 11 is arranged on the machine frame 1, a first processing station 111, a second processing station 112 and a third processing station 113 for processing shoe blanks are arranged on the workbench 11, and an outer frame 12 is further arranged on the periphery of the machine frame 1.

The positioning and clamping mechanism 2 comprises a positioning base 21, a positioning cylinder 22, clamping adjusting blocks 23, clamping plates 24 and a baffle plate 25, wherein the positioning base 21 is arranged on the workbench 11, the positioning cylinder 22 is arranged on the positioning base 21, two sides of the positioning cylinder 22 are respectively provided with one clamping adjusting block 23, the clamping adjusting blocks 23 are provided with a plurality of mounting clamping positions 231, two clamping adjusting blocks 23 are respectively provided with one clamping plate 24, the clamping plates 24 are arranged on the mounting clamping positions 231, the plurality of mounting clamping positions 231 are arranged, so that the mounting positions of the clamping plates 24 can be adjusted, the distance between the two clamping plates 24 is adjusted according to the length of a shoe blank, and the baffle plate 25 is arranged at the front end of the positioning cylinder 22; the baffle 25 is used for limiting the conveying position of the shoe blanks.

The clamping plate 24 of the positioning and clamping mechanism 2 clamps and positions the shoe blanks transmitted by the conveying mechanism 100, the toe caps are tightly attached to the clamping plate 24 on one side, and the heel heels are tightly attached to the clamping plate 24 on the other side.

The moving mechanism 8 comprises a second slide rail 81, a second slide block 82, a driving motor 83, a fixed profile 84 and a manipulator 85, the second slide rail 81 is arranged on the workbench 11, the second slide block 82 is arranged on the second slide rail 81, the driving motor 83 drives the second slide block 82 to move on the second slide rail 81, the fixed profile 84 is arranged on the second slide block 82, the manipulator 85 comprises a clamping cylinder 851 and a clamping jaw 852, the clamping cylinder 851 is arranged on the fixed profile 84, and two clamping jaws 852 are respectively arranged on two sides of the clamping cylinder 851; the three mechanical hands 85 are arranged on the fixed section bar 84 at intervals, when the moving mechanism 8 is in an initial state, the three mechanical hands 85 are respectively positioned above the positioning and clamping mechanism 2, on the first processing station 111 and the second processing station 112, and the fixed section bar 84 is arranged on the second sliding block 82, so that the fixed section bar 84 can drive the mechanical hands 85 to slide on the second sliding rails 81, and the positions of the mechanical hands 85 relative to the processing stations are changed.

The first rotary clamping mechanism 5 is correspondingly arranged on the first processing station 111, the second rotary clamping mechanism 6 is correspondingly arranged on the second processing station 112, and the sole polishing mechanism 7 is correspondingly arranged on the third processing station 113.

The burr polishing mechanism 3 comprises a burr base 31, a burr recording component 32 and a polishing component 33, the burr base 31 is arranged on the workbench 11 and located on one side of the first processing station 111, the burr recording component 32 is arranged on the burr base 31 and used for scanning and recording burr shapes of shoe blanks, and the polishing component 33 is arranged on the burr recording component 32 and used for polishing burrs of the shoe blanks;

the burr recording component 32 comprises a motor mounting plate 321, an encoder mounting plate 322, a servo motor 323, an encoder 324, a swing cylinder 325, a swing rod 326 and a contact rod 327, the motor mounting plate 321 is movably arranged on the burr base 31, the servo motor 323 and the encoder mounting plate 322 are both arranged on the motor mounting plate 321, the encoder 324 and the swing cylinder 325 are arranged on the encoder mounting plate 322, the servo motor 323 is connected with the encoder 324, the swing cylinder 325 is connected with the swing rod 326, the swing rod 326 is connected with the contact rod 327, and the encoder 324 is connected with the swing rod 326 through an encoder connecting shaft 328;

the grinding assembly 33 comprises a first rotating motor 331 and a grinding rod 332, the first rotating motor 331 is arranged on the motor mounting plate 321, and the first rotating motor 331 is connected with the grinding rod 332 in a driving manner.

First rotatory fixture 5 presss from both sides tight shoes embryo and drives shoes embryo rotatory, when shoes embryo deckle edge need polish, contact stick 327 under the drive of pendulum rod 326 with the deckle edge contact of shoes embryo, record the deckle edge shape of shoes embryo through encoder 324, then pass through in encoder 324 afferent servo motor 323, then drive first rotating electrical machines 331 action through servo motor 323 to the orbit that records down along encoder 324 drives the deckle edge that polishes the shoes embryo of stick 332.

The burr grinding mechanism 3 further comprises a dust suction port 34, wherein the dust suction port 34 is positioned above the grinding rod 332, and when the grinding rod 332 generates debris in the grinding process, the debris can be sucked out through the dust suction port 34.

The first rotary clamping mechanism 5 is correspondingly arranged on the first machining station 111, the first rotary clamping mechanism 5 comprises a sliding assembly 51 and a clamping assembly 52, the sliding assembly 51 comprises two first sliding rails 511, a first sliding block 512, a sliding table 513, a sliding motor 514 and a connecting shaft 515, the two first sliding rails 511 are arranged on the workbench 11 in parallel, the two first sliding rails 511 are respectively provided with the first sliding block 512, the sliding table 513 is arranged on the first sliding block 512, the sliding motor 514 drives the first sliding block 512 to slide on the first sliding rails 511, the connecting shaft 515 is arranged between the two first sliding rails 511, and the sliding motor 514 is connected with the connecting shaft 515;

the sliding table 513 is disposed on the first sliding block 512, and the sliding table 513 can be driven by the first sliding block 512 to slide on the first sliding rail 511;

the clamping assembly 52 comprises a supporting seat 521, a second rotating motor 522, a pneumatic rotating head 523, a suction cylinder 524, a suction cup 525 and a shoe material rotating shaft 526, wherein the supporting seat 521 is arranged on the sliding table 513, the second rotating motor 522 is arranged on the supporting seat 521, the shoe material rotating shaft 526 is connected with the second rotating motor 522, a supporting plate 5211 is arranged on the shoe material rotating shaft 526, the pneumatic rotating head 523 is arranged on the supporting seat 521, the pneumatic rotating head 523 is connected with the suction cylinder 524, the suction cylinder 524 is connected with the suction cup 525, the suction cup 525 is located above the supporting plate 5211, a dust-proof plate 527 is further arranged on the first rotating clamping mechanism 5, and the dust-proof plate 527 has a dust-proof effect.

The structure of the first rotary clamping mechanism 5 is the same as that of the second rotary clamping mechanism 6.

When the shoe embryo is grabbed to first processing station 111 through manipulator 85, the shoe embryo is absorbed through sucking disc 525 on the centre gripping subassembly 52 of first rotatory fixture 5, and arrange the shoe embryo on layer board 5211, then drive shoes material pivot 526 through second rotating electrical machines 522 and rotate, thereby it rotates to drive the shoe embryo on layer board 5211, make the shoe embryo at the rotation in-process, can record deckle edge shape through deckle edge grinding mechanism 3's encoder 324, and with the cooperation of deckle edge grinding mechanism 3's grinding rod 332, polish the deckle edge of shoe embryo, thereby accomplish deckle edge's the action of polishing.

The structure of the second rotary clamping mechanism 6 is the same as that of the first rotary clamping mechanism 5, when the shoe blank is processed on the first processing station 111 (namely, on the first rotary clamping mechanism 5), rough edges of the shoe blank are processed, the preliminarily processed shoe blank is grabbed to the second processing station 112 through the manipulator 85 on the moving mechanism 8, and then the shoe blank is clamped and driven to rotate through the second rotary clamping mechanism 6.

The side polishing mechanism 4 comprises a polishing base 41, a fixing plate 42, a polishing motor 43, a polishing cylinder 44, a polishing rod 45, a grinding wheel seat 46 and a compression roller 47, wherein the polishing base 41 is arranged on the workbench 11 and positioned on one side of the second rotary clamping mechanism 6, the fixing plate 42 is arranged on the polishing base 41, the polishing motor 43 is arranged on the fixing plate 42, the polishing motor 43 is connected with the polishing rod 45, the polishing rod 45 is arranged on the grinding wheel seat 46, the grinding wheel seat 46 is fixed on the fixing plate 42, the compression rollers 47 are arranged on two sides of the polishing rod 45, the compression rollers 47 are connected with the polishing cylinder 44, and the polishing cylinder 44 is arranged on the fixing plate 42.

6 centre gripping shoes embryo rotations of second rotary clamping mechanism and near side polishing mechanism 4, the side of shoes embryo is polished to polishing rod 45 through side polishing mechanism 4, the shoes embryo can be flattened to compression roller 47, make polishing rod 45 more smooth at the polishing in-process, through the cooperation of second rotary clamping mechanism 6 and side polishing mechanism 4, the completion is to the polishing action of shoes embryo side, the polishing is accomplished the back, the shoes embryo that will polish the completion through manipulator 85 on the moving mechanism 8 snatchs to third processing station 113 on, sole grinding mechanism 7 department promptly.

Three manipulators 85 on the moving mechanism 8 respectively grab the shoe blanks to three processing stations, when the moving mechanism 8 is in an initial state, the first manipulator 85 grabs the shoe blanks on the positioning and clamping mechanism 2 to the first rotary clamping mechanism 5 on the first processing station 111, the second manipulator 85 grabs the shoe blanks on the first rotary clamping mechanism 5, which are subjected to rough edge processing, to the second processing station 112, and the third manipulator 85 grabs the shoe blanks on the second rotary clamping mechanism 5, which are subjected to polishing processing, to the sole polishing mechanism 7 on the third processing station 113, and then the cycle is repeated.

The sole polishing mechanism 7 comprises a turnover component 71, a roller component 72 and a swinging component 73, wherein the swinging component 73 is arranged on the roller component 72, and the turnover component 71 is positioned at the front end of the roller component 72;

the overturning assembly 71 comprises an overturning base 711, an overturning connecting plate 712, a first article placing plate 713, a second article placing plate 714, an overturning cylinder 715 and an overturning motor 716, wherein the overturning base 711 is arranged on the workbench 11, the first article placing plate 713 and the overturning motor 716 are arranged on the overturning base 711, the overturning base 711 is connected with the overturning cylinder 715 through the overturning connecting plate 712, the second article placing plate 714 is arranged on the overturning cylinder 715, two clamping plates 7151 are respectively arranged on two sides of the overturning cylinder 715, a pushing cylinder 7131, a pushing plate 7132 and a shoe blank baffle 7133 are arranged on the first article placing plate 713, the pushing plate 7132 is fixed on the pushing cylinder 7131, and the shoe blank baffle 7133 is arranged on two sides of the first article placing plate 713 and used for blocking shoe blanks and preventing the shoe blanks from falling;

the roller assembly 72 comprises a roller base 721, a roller motor 722, a roller 723, a front end roller assembly 724, a rear end roller assembly 725 and a discharge plate 726, the roller motor 722 is in driving connection with the roller 723, the front end of the roller 723 is provided with the front end roller assembly 724, the rear end of the roller 723 is provided with the rear end roller assembly 725, the rear end roller assembly 725 is in butt joint with the discharge plate 726, the roller 723 is arranged on the roller base 721, and the roller base 721 is arranged on the workbench 11;

the swinging assembly 73 comprises an installation base 731, a variable frequency motor 732, a belt pulley 733, a belt 734, a grinding wheel spindle 735, a tensioning cylinder 736 and sand paper 737, wherein the installation base 731 is arranged on the roller base 721, the variable frequency motor 732 is arranged on the installation base 731, one end of the variable frequency motor 732 is connected with the belt pulley 733, the grinding wheel spindle 735 is positioned above the roller 723, one end of the grinding wheel spindle is connected with the belt pulley 733, the two belt pulleys 733 are connected through the belt 734, a connecting support 7351 is arranged on the grinding wheel spindle 735, the tensioning cylinder 736 is arranged on the connecting support 7351, and the sand paper 737 is connected between the tensioning cylinder 736 and the grinding wheel spindle 735;

the manipulator 85 snatchs the shoe embryo to the second storage plate 714 on the upset subassembly 71, then the upset motor 716 drives the action of second storage plate 714, with the shoe embryo upset to first storage plate 713, the sole of shoe embryo up this moment, the promotion cylinder 7131 on the first storage plate 713 drives push pedal 7132 and promotes the shoe embryo, send the shoe embryo into between cylinder 723 and the emery wheel axle 735, polish the sole of shoe embryo through the abrasive paper on the emery wheel axle 735, the supplementary cooperation of front end pressure roller subassembly 724 and rear end pressure roller subassembly is pushed down the shoe embryo, after polishing, the ejection of compact is followed from ejection of compact board 726 to the shoe embryo.

The shoe polishing machine further comprises a control assembly (not disclosed in the figure), the control assembly is arranged in the machine frame 1, the control assembly is electrically connected with the positioning and clamping mechanism 2, the moving mechanism 8, the burr polishing mechanism 3, the first rotating and clamping mechanism 5, the second rotating and clamping mechanism 6, the side polishing mechanism 4 and the sole polishing mechanism 7, and the control assembly controls the mechanisms to cooperate to ensure that the polishing rod 332 of the burr polishing mechanism 3 and the polishing rod 45 of the side polishing mechanism 4 are always in the normal direction of the surface of a shoe.

The utility model discloses the theory of operation does: the shoe blanks to be processed are conveyed to the positioning and clamping mechanism 2 through the conveying mechanism 100, are clamped and positioned through the positioning and clamping mechanism 2, are grabbed to the first rotary clamping mechanism 5 on the first processing station 111 through the mechanical arm 85 on the moving mechanism 8, are clamped and rotated by the first rotary clamping mechanism 5, are matched with the rough edge polishing mechanism 3, rough edges of the shoe blanks are polished through the polishing rod 332 of the rough edge polishing mechanism 3, after polishing is completed, the shoe blanks with rough edges processed are grabbed to the second rotary clamping mechanism 6 on the second processing station 112 through the mechanical arm 85, are clamped and rotated by the second rotary clamping mechanism 6, are matched with the side edge polishing mechanism 4, the side edges of the shoe blanks are polished through the polishing upper 45 of the side edge polishing mechanism 4, and are grabbed to the overturning assembly 71 on the third processing station 113 through the mechanical arm 85, overturn the shoe embryo through upset subassembly 71 for the sole is up, then polishes the sole of shoe embryo through the cooperation between upset subassembly 71, roller assembly 72 and the swing subassembly 73, polishes the completion back, carries out the ejection of compact to the shoe embryo, polishes through the machine and replaces artifical polishing, has practiced thrift the manual work, has improved the efficiency of polishing and the quality of polishing, can practice thrift the cost.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (7)

1. The utility model provides an automatic grinding device of foaming shoes embryo which characterized in that: which comprises

The shoe blank processing device comprises a rack, wherein a workbench is arranged on the rack, and a first processing station, a second processing station and a third processing station for processing shoe blanks are arranged on the workbench;

the positioning and clamping mechanism is butted with the conveying mechanism and arranged on the workbench and used for clamping and positioning the shoe blanks conveyed by the conveying mechanism;

the burr polishing mechanism is arranged on the workbench and positioned on one side of the first machining station, and is used for polishing burrs of the shoe blank;

the first rotary clamping mechanism is correspondingly arranged on the first processing station and used for clamping shoe blanks and is matched with the burr polishing mechanism to polish burrs of the shoe blanks;

the side polishing mechanism is arranged on the workbench and positioned on one side of the second machining station, and is used for polishing the side of the shoe blank;

the second rotary clamping mechanism is correspondingly arranged on the second processing station and is used for clamping the shoe blank and is matched with the side polishing mechanism to polish the side of the shoe blank;

the sole polishing mechanism is arranged on the workbench and correspondingly arranged on the third machining station and is used for polishing soles;

the moving mechanism is arranged on the workbench, three mechanical arms are arranged on the moving mechanism, each mechanical arm picks the shoe embryo and correspondingly sends the shoe embryo into the first rotary clamping mechanism, the second rotary clamping mechanism and the sole polishing mechanism.

2. The automatic grinding device of foaming shoe embryo of claim 1, characterized in that: the positioning and clamping mechanism comprises a positioning base, a positioning cylinder, clamping adjusting blocks, clamping plates and a baffle plate, wherein the positioning base is arranged on the workbench, the positioning cylinder is arranged on the positioning base, the two sides of the positioning cylinder are respectively provided with one clamping adjusting block, the clamping adjusting blocks are provided with a plurality of installation clamping positions, the two clamping adjusting blocks are respectively provided with one clamping plate, and the baffle plate is arranged at the front end of the positioning cylinder.

3. The automatic grinding device of foaming shoe embryo of claim 1, characterized in that: the burr polishing mechanism comprises a burr base, a burr recording component and a polishing component, the burr base is arranged on the workbench and is positioned on one side of the first rotary clamping mechanism, the burr recording component is arranged on the burr base and is used for scanning and recording the burr shape of the shoe blank, and the polishing component is arranged on the burr recording component and is used for polishing burrs of the shoe blank;

the burr recording assembly comprises a motor mounting plate, an encoder mounting plate, a servo motor, an encoder, a swing cylinder, a swing rod and a contact rod, wherein the motor mounting plate is movably arranged on the burr base;

the polishing assembly comprises a first rotating motor and a polishing rod, the first rotating motor is arranged on the motor mounting plate, and the first rotating motor is connected with the polishing rod in a driving mode.

4. The automatic grinding device of foaming shoe embryo of claim 1, characterized in that: the first rotary clamping mechanism comprises a sliding assembly and a clamping assembly, the sliding assembly comprises two first sliding rails, first sliding blocks, sliding tables, a sliding motor and a connecting shaft, the two first sliding rails are arranged on the workbench in parallel, the two first sliding rails are respectively provided with the first sliding blocks, the sliding tables are arranged on the first sliding blocks, the sliding motor drives the first sliding blocks to slide on the first sliding rails, the connecting shaft is arranged between the two first sliding rails, and the sliding motor is connected with the connecting shaft; the centre gripping subassembly includes supporting seat, second rotating electrical machines, pneumatic rotating head, absorption cylinder, sucking disc and shoes material pivot, the supporting seat sets up on the slip table, and second rotating electrical machines sets up on the supporting seat, is provided with shoes material pivot on the supporting seat, and shoes material pivot is connected with second rotating electrical machines, is provided with the layer board in the shoes material pivot, pneumatic rotating head sets up on the supporting seat, and pneumatic rotating head connects the absorption cylinder, absorbs the cylinder and connects the sucking disc, the sucking disc is located the top of layer board, first rotatory fixture's structure is the same with the rotatory fixture's of second structure.

5. The automatic grinding device of foaming shoe embryo of claim 1, characterized in that: the side polishing mechanism comprises a polishing base, a fixing plate, a polishing motor, a polishing cylinder, a polishing rod, a grinding wheel seat and a compression roller, wherein the polishing base is arranged on the workbench and located on one side of the second rotary clamping mechanism, the fixing plate is arranged on the polishing base, the polishing motor is arranged on the fixing plate, the polishing motor is connected with the polishing rod, the polishing rod is arranged on the grinding wheel seat, the grinding wheel seat is fixed on the fixing plate, the compression roller is arranged on two sides of the polishing rod, the compression roller is connected with the polishing cylinder, and the polishing cylinder is arranged on the fixing plate.

6. The automatic grinding device of foaming shoe embryo of claim 1, characterized in that:

the sole polishing mechanism comprises a turnover component, a roller component and a swinging component, wherein the swinging component is arranged on the roller component, and the turnover component is positioned at the front end of the roller component;

the overturning assembly comprises an overturning base, an overturning connecting plate, a first object placing plate, a second object placing plate, an overturning cylinder and an overturning motor, wherein the overturning base is arranged on the workbench, the first object placing plate and the overturning motor are arranged on the overturning base, the overturning base is connected with the overturning cylinder through the overturning connecting plate, the second object placing plate is arranged on the overturning cylinder, two clamping plates are respectively arranged on two sides of the overturning cylinder, a pushing cylinder and a pushing plate are arranged on the first object placing plate, and the pushing plate is fixed on the pushing cylinder;

the roller assembly comprises a roller base, a roller motor, a roller, a front end press roller assembly, a rear end press roller assembly and a discharge plate, the roller motor is in driving connection with the roller, the front end of the roller is provided with the front end press roller assembly, the rear end of the roller is provided with the rear end press roller assembly, the rear end press roller assembly is in butt joint with the discharge plate, the roller is arranged on the roller base, and the roller base is arranged on the workbench;

the swing assembly comprises an installation base, a variable frequency motor, a belt pulley, a belt, a grinding wheel shaft, a tensioning cylinder and abrasive paper, wherein the installation base is arranged on the roller base, the variable frequency motor is arranged on the installation base, one end of the variable frequency motor is connected with the belt pulley, the grinding wheel shaft is located, the belt pulley is connected with the upper end of the roller and one end of the roller, the two belt pulleys are connected through the belt, a connecting support is arranged on the grinding wheel shaft, the tensioning cylinder is arranged on the connecting support, the abrasive paper is connected between the tensioning cylinder and the grinding wheel shaft, the shoe embryo is pushed to the position between the roller and the grinding wheel shaft through the push cylinder, and the shoe sole is polished through the abrasive paper.

7. The automatic grinding device of foaming shoe embryo of claim 1, characterized in that: the moving mechanism comprises a second sliding rail, a second sliding block, a driving motor, a fixed profile and a manipulator, the second sliding rail is arranged on the workbench, the second sliding block is arranged on the second sliding rail, the driving motor drives the second sliding block to move on the second sliding rail, the fixed profile is arranged on the second sliding block, the manipulator comprises a clamping cylinder and a clamping jaw, the clamping cylinder is arranged on the fixed profile, and two sides of the clamping cylinder are respectively provided with the clamping jaw.

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